Machine perfusion of isolated kidney at 37 degrees C using pyridoxalated hemoglobin-polyoxyethylene (PHP) solution, UW solution and its combination

Perfusate Composition and Duration of Ex-Vivo Normothermic Perfusion in Kidney Transplantation: A Systematic Review

Ex-vivo normothermic perfusion (EVNP) is an emerging strategy in kidney preservation that enables resuscitation and viability assessment under pseudo-physiological conditions prior to transplantation. The optimal perfusate composition and duration, however, remain undefined. A systematic literature search (Embase; Medline; Scopus; and BIOSIS Previews) was conducted. We identified 1,811 unique articles dating from January 1956 to July 2021, from which 24 studies were deemed eligible for qualitative analysis. The perfusate commonly used in clinical practice consisted of leukocyte-depleted, packed red blood cells suspended in Ringer’s lactate solution with Mannitol, dexamethasone, heparin, sodium bicarbonate and a specific nutrient solution supplemented with insulin, glucose, multivitamins and vasodilators. There is increasing support in preclinical studies for non-blood cell-based perfusates, including Steen solution, synthetic haem-based oxygen carriers and acellular perfusates with supraphysiological carbogen mixtures that support adequate oxygenation whilst also enabling gradual rewarming. Extended durations of perfusion (up to 24 h) were also feasible in animal models. Direct comparison between studies was not possible due to study heterogeneity. Current evidence demonstrates safety with the aforementioned widely used protocol, however, extracellular base solutions with adequate oxygenation, supplemented with nutrient and metabolic substrates, show promise by providing a suitable environment for prolonged preservation and resuscitation.

Systematic Review Registration:https://www.crd.york.ac.uk/prospero/display_record.php?ID=CRD42021231381, identifier PROSPERO 2021 CRD42021231381

Effects of a stroma-free hemoglobin and perfluorochemical combination on ultrastructure and function of the isolated rat kidney

Experimental perfusions of isolated rat kidneys were performed with flow rates adjusted to produce comparable glomerular filtration rates (GFR) in control and experimental groups. The experimental perfusate, consisting of Krebs-Ringer bicarbonate (KRB) containing 3.5% (uncrosslinked) stroma-free hemoglobin (SFH) plus 3.5% of the perfluorochemical (PFC) Fluosol-DA, was found to produce only 48% as much urine as the control perfusate consisting of KRB containing 7% dextran (without either SFH or PFC). Perfusion with the experimental SFH/PFC mixture was associated with mean fractional reabsorptions of sodium 3.3% greater and of potassium 5.1% lesser than perfusion with the control KRB (with dextran) solution (p < .05). The SFH/PFC mixture was localized histochemically to the capillaries and urinary spaces of glomeruli; and to the apical microvilli, basal laminae, and intracytoplasmic vacuoles of proximal renal tubular cells. Since the glomerular filtration rate was not a factor, decremental urine production appears to be associated with increased reabsorption of sodium, excretion of potassium, and proximal tubular uptake of the experimental SFH/PFC mixture by endocytosis.